3,015 research outputs found
Advanced general aviation comparative engine/airframe integration study
The NASA Advanced Aviation Comparative Engine/Airframe Integration Study was initiated to help determine which of four promising concepts for new general aviation engines for the 1990's should be considered for further research funding. The engine concepts included rotary, diesel, spark ignition, and turboprop powerplants; a conventional state-of-the-art piston engine was used as a baseline for the comparison. Computer simulations of the performance of single and twin engine pressurized aircraft designs were used to determine how the various characteristics of each engine interacted in the design process. Comparisons were made of how each engine performed relative to the others when integrated into an airframe and required to fly a transportation mission
Experimental investigations of the effects of cutting angle on chattering of a flexible manipulator
When a machine tool is mounted at the tip of a robotic manipulator, the manipulator becomes more flexible (the natural frequencies are lowered). Moreover, for a given flexible manipulator, its compliance will be different depending on feedback gains, configurations, and direction of interest. Here, the compliance of a manipulator is derived analytically, and its magnitude is represented as a compliance ellipsoid. Then, using a two-link flexible manipulator with an abrasive cut off saw, the experimental investigation shows that the chattering varies with the saw cutting angle due to different compliance. The main work is devoted to finding a desirable cutting angle which reduces the chattering
“From Margin to Center”: Processes and Relationships to Participation One Woman’s Ethnographic Journey Mirrored through Community Research
In the closing two years of my doctoral degree that spanned ten years of my life, I was asked by a mentor to write a personal essay on my academic experiences at the university. That essay follows and is printed here not without the accompanying editing that marshaled its own questioning, self-reflection and analysis that comes with distance, wisdom, and the editor of a juried journal.
I was concerned to give a revisionist accounting now, another five or six years after the writing of the essay, to explain what my perspective was then as a disaffected African- American ABD (all but dissertation), given my changed thinking now, of what matters and what does not; and how my responses would have changed, lessened, or wizened over time. After all, my heightened sensitivity as an emotionally vulnerable and young so-called minority Black female, coming from a politically-charged HBCU (historically-Black college or university) to enter a predominantly white and politically conservative environment brings with it a whole dimension of challenges, the least of which is how to fit in, how not to be invisible, how to be successful and how to gain access to be successful in the midst of myriad real and perceived walls and obstacles
Neutral atomic carbon in the globules of the Helix
We report detection of the 609u line of neutral atomic carbon in globules of
the Helix nebula. The measurements were made towards the position of peak CO
emission. At the same position, we obtained high-quality CO(2-1) and 13CO(2-1)
spectra and a 135" x 135" map in CO(2-1). The velocity distribution of CI shows
six narrow (1 -> 2 km/sec) components which are associated with individual
globules traced in CO. The CI column densities are 0.5 -> 1.2 x 10^16/cm^2. CI
is found to be a factor of ~6 more abundant than CO. Our estimate for the mass
of the neutral envelope is an order of magnitude larger than previous
estimates. The large abundance of CI in the Helix can be understood as a result
of the gradual photoionisation of the molecular envelope by the central star's
radiation field.Comment: 5 pages, Latex, AAS macros, 3 EPS figures, to appear in Astrophysical
Journal Letter
A model of large volumetric capacitance in graphene supercapacitors based on ion clustering
Electric double layer supercapacitors are promising devices for high-power
energy storage based on the reversible absorption of ions into porous,
conducting electrodes. Graphene is a particularly good candidate for the
electrode material in supercapacitors due to its high conductivity and large
surface area. In this paper we consider supercapacitor electrodes made from a
stack of graphene sheets with randomly-inserted "spacer" molecules. We show
that the large volumetric capacitances C > 100 F/cm^3 observed experimentally
can be understood as a result of collective intercalation of ions into the
graphene stack and the accompanying nonlinear screening by graphene electrons
that renormalizes the charge of the ion clusters.Comment: 13 pages, 5 figures; additional discussion and supporting
calculations adde
The Digital Engine Model: Generating Leads Through the Application of DCM and Inbound Marketing
Digital Content Marketing (DCM) has become a primary tool for marketers in driving lead generation in today’s digital marketing world. Leading brands are creating and curating content trying to build brand equity and trust, connecting content to consumer action through brand story. And while strong theoretical models of content marketing have been discussed in the marketing literature, like Hollebeek and Macky (2019), there is a dearth of understanding about the application and direct impact of organic digital content strategies on marketing directives. This paper investigates an applied model, called The Digital Engine, which provides instruction on proper inbound marketing techniques and then measures the impact of this instruction through a live 8-week campaign across 358 active websites. Results indicate that the Digital Engine instruction not only provides applicable understanding to the learner, but the applied methodology provides significant impact in driving lead generation by using active website goal funnels. Users of the Digital Engine curriculum learn how to create and curate content that drive readers to the appropriate call to actions, which generate live responses and builds a dynamic customer relationship management (CRM) database. The completion of these online forms produces serviceable leads to the sales team, whereby supporting the overarching aim of all DCM strategies, lead generation
Redox reactions with empirical potentials: Atomistic battery discharge simulations
Batteries are pivotal components in overcoming some of today's greatest
technological challenges. Yet to date there is no self-consistent atomistic
description of a complete battery. We take first steps toward modeling of a
battery as a whole microscopically. Our focus lies on phenomena occurring at
the electrode-electrolyte interface which are not easily studied with other
methods. We use the redox split-charge equilibration (redoxSQE) method that
assigns a discrete ionization state to each atom. Along with exchanging partial
charges across bonds, atoms can swap integer charges. With redoxSQE we study
the discharge behavior of a nano-battery, and demonstrate that this reproduces
the generic properties of a macroscopic battery qualitatively. Examples are the
dependence of the battery's capacity on temperature and discharge rate, as well
as performance degradation upon recharge.Comment: 14 pages, 10 figure
The Digital Engine Model: Lead Generation Through Applied DCM Strategies
Digital Content Marketing (DCM) has become a primary tool for marketers in driving lead generation in today’s digital marketing world. Leading brands are creating and curating content in order to develop brand equity, connecting content to brand story and narrative. And while strong theoretical models of content marketing have been discussed in the marketing literature, like Hollebeek and Macky (2019), there is a dearth of understanding about the application and direct impact of organic digital content strategies on marketing directives. This paper investigates an applied model, called The Digital Engine, which provides instruction on proper digital content marketing instruction and then measures the impact of this instruction through a live 8-week campaign across 221 active websites. Results indicate that the Digital Engine instruction not only provides applicable understanding but that the applied methodology provides significant impact in driving users through various methods of brand acquisition and retention through to the website where created and curated content lead website users to complete call-to-action forms. Most importantly, completion of these online forms produces serviceable leads to the sales team, whereby supporting the overarching aim of all DCM strategies, lead generation
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Optimization of Protein-Ligand Electrostatic Interactions Using an Alchemical Free-Energy Method.
We present an explicit solvent alchemical free-energy method for optimizing the partial charges of a ligand to maximize the binding affinity with a receptor. This methodology can be applied to known ligand-protein complexes to determine an optimized set of ligand partial atomic changes. Three protein-ligand complexes have been optimized in this work: FXa, P38, and the androgen receptor. The sets of optimized charges can be used to identify design principles for chemical changes to the ligands which improve the binding affinity for all three systems. In this work, beneficial chemical mutations are generated from these principles and the resulting molecules tested using free-energy perturbation calculations. We show that three quarters of our chemical changes are predicted to improve the binding affinity, with an average improvement for the beneficial mutations of approximately 1 kcal/mol. In the cases where experimental data are available, the agreement between prediction and experiment is also good. The results demonstrate that charge optimization in explicit solvent is a useful tool for predicting beneficial chemical changes such as pyridinations, fluorinations, and oxygen to sulfur mutations
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